Download presentation
Presentation is loading. Please wait.
Published byMorris Whitehead Modified over 5 years ago
1
Alpha-Actinin 4 Is Associated with Cancer Cell Motility and Is a Potential Biomarker in Non–Small Cell Lung Cancer Ming-Chuan Wang, PhD, Ying-Hua Chang, PhD, Chih-Chieh Wu, PhD, Yu-Chang Tyan, PhD, Hua-Chien Chang, MS, Yih-Gang Goan, MD, Wu-Wei Lai, MD, Pin-Nan Cheng, MD, Pao-Chi Liao, PhD Journal of Thoracic Oncology Volume 10, Issue 2, Pages (February 2015) DOI: /JTO Copyright © 2015 International Association for the Study of Lung Cancer Terms and Conditions
2
FIGURE 1 Differential expression and secretion of ACTN4 protein in CL1-0 and CL1-5 cells. A, Western blots of ACTN4 protein expression in cell extracts (CE) and ACTN4 secretion into conditioned media (CM) from the CL1-0 and CL1-5 lung cancer cells. B, The quantification of relative intensity of ACTN4 protein in the CE and CM of the CL1-5 and CL1-0 lung cancer cells. The signal intensity of Western blotting was normalized to the intensity of the CL1-0 ACTN4 protein. Tubulin and phosphoglycerate mutase 1 (PGAM1) were used as loading controls for CE and CM, respectively. Journal of Thoracic Oncology , DOI: ( /JTO ) Copyright © 2015 International Association for the Study of Lung Cancer Terms and Conditions
3
FIGURE 2 The effects of ACTN4 protein on cell migration and invasiveness in CL1-5 cells. A, The Western blot data and relative intensity quantification of ACTN4 protein in cell extracts and conditioned media of the lung cancer CL1-5 cells after treating different pools of ACTN4 siRNA. Tubulin, actin, and PGAM1 were used as loading controls for cell extracts and conditioned media. The signal intensities of Western blotting were normalized to the intensity of the CL1-5 cells treated with scrambled control. B, MTT cell viability assay and (C) BrdU cell proliferation assay of CL1-5 cells treated with ACTN4 scrambled control or ACTN4 siRNA. Mann–Whitney U tests were carried out for each interval (p < 0.05). The results of (D) the transwell migration assay, (E) the Matrigel invasion assay, and (F) the wound healing assay of CL1-5 cells treated with scrambled control or ACTN4 siRNA. G, Western blots and relative intensity quantification of differential expression of ACTN4 protein between CL1-0 cells transfected with control vector or ACTN4 DNA vectors. The signal intensity of Western blotting was normalized to the intensity of the CL1-0 cells transfected with control vector. The results of (H) the transwell migration assay and (I) the Matrigel invasion assay of CL1-0 cells transfected with control vector or ACTN4 DNA vectors. The quantification values of the transwell migration assays and Matrigel invasion assays are expressed as the mean ± SD values from triplicate experiments, and the cell numbers were calculated from six random fields under a light microscope at 100× magnification. The wound-healing assay was quantified using ImageJ software. The gray line indicates the initial wound scratch boundary, and the black line indicates the boundary of cell migration after 24 hours. The quantification of the wound-healing assay is provided as the mean ± SD values of triplicate experiments, and a Mann–Whitney U test was performed (p < 0.05). Journal of Thoracic Oncology , DOI: ( /JTO ) Copyright © 2015 International Association for the Study of Lung Cancer Terms and Conditions
4
FIGURE 2 The effects of ACTN4 protein on cell migration and invasiveness in CL1-5 cells. A, The Western blot data and relative intensity quantification of ACTN4 protein in cell extracts and conditioned media of the lung cancer CL1-5 cells after treating different pools of ACTN4 siRNA. Tubulin, actin, and PGAM1 were used as loading controls for cell extracts and conditioned media. The signal intensities of Western blotting were normalized to the intensity of the CL1-5 cells treated with scrambled control. B, MTT cell viability assay and (C) BrdU cell proliferation assay of CL1-5 cells treated with ACTN4 scrambled control or ACTN4 siRNA. Mann–Whitney U tests were carried out for each interval (p < 0.05). The results of (D) the transwell migration assay, (E) the Matrigel invasion assay, and (F) the wound healing assay of CL1-5 cells treated with scrambled control or ACTN4 siRNA. G, Western blots and relative intensity quantification of differential expression of ACTN4 protein between CL1-0 cells transfected with control vector or ACTN4 DNA vectors. The signal intensity of Western blotting was normalized to the intensity of the CL1-0 cells transfected with control vector. The results of (H) the transwell migration assay and (I) the Matrigel invasion assay of CL1-0 cells transfected with control vector or ACTN4 DNA vectors. The quantification values of the transwell migration assays and Matrigel invasion assays are expressed as the mean ± SD values from triplicate experiments, and the cell numbers were calculated from six random fields under a light microscope at 100× magnification. The wound-healing assay was quantified using ImageJ software. The gray line indicates the initial wound scratch boundary, and the black line indicates the boundary of cell migration after 24 hours. The quantification of the wound-healing assay is provided as the mean ± SD values of triplicate experiments, and a Mann–Whitney U test was performed (p < 0.05). Journal of Thoracic Oncology , DOI: ( /JTO ) Copyright © 2015 International Association for the Study of Lung Cancer Terms and Conditions
5
FIGURE 2 The effects of ACTN4 protein on cell migration and invasiveness in CL1-5 cells. A, The Western blot data and relative intensity quantification of ACTN4 protein in cell extracts and conditioned media of the lung cancer CL1-5 cells after treating different pools of ACTN4 siRNA. Tubulin, actin, and PGAM1 were used as loading controls for cell extracts and conditioned media. The signal intensities of Western blotting were normalized to the intensity of the CL1-5 cells treated with scrambled control. B, MTT cell viability assay and (C) BrdU cell proliferation assay of CL1-5 cells treated with ACTN4 scrambled control or ACTN4 siRNA. Mann–Whitney U tests were carried out for each interval (p < 0.05). The results of (D) the transwell migration assay, (E) the Matrigel invasion assay, and (F) the wound healing assay of CL1-5 cells treated with scrambled control or ACTN4 siRNA. G, Western blots and relative intensity quantification of differential expression of ACTN4 protein between CL1-0 cells transfected with control vector or ACTN4 DNA vectors. The signal intensity of Western blotting was normalized to the intensity of the CL1-0 cells transfected with control vector. The results of (H) the transwell migration assay and (I) the Matrigel invasion assay of CL1-0 cells transfected with control vector or ACTN4 DNA vectors. The quantification values of the transwell migration assays and Matrigel invasion assays are expressed as the mean ± SD values from triplicate experiments, and the cell numbers were calculated from six random fields under a light microscope at 100× magnification. The wound-healing assay was quantified using ImageJ software. The gray line indicates the initial wound scratch boundary, and the black line indicates the boundary of cell migration after 24 hours. The quantification of the wound-healing assay is provided as the mean ± SD values of triplicate experiments, and a Mann–Whitney U test was performed (p < 0.05). Journal of Thoracic Oncology , DOI: ( /JTO ) Copyright © 2015 International Association for the Study of Lung Cancer Terms and Conditions
6
FIGURE 2 The effects of ACTN4 protein on cell migration and invasiveness in CL1-5 cells. A, The Western blot data and relative intensity quantification of ACTN4 protein in cell extracts and conditioned media of the lung cancer CL1-5 cells after treating different pools of ACTN4 siRNA. Tubulin, actin, and PGAM1 were used as loading controls for cell extracts and conditioned media. The signal intensities of Western blotting were normalized to the intensity of the CL1-5 cells treated with scrambled control. B, MTT cell viability assay and (C) BrdU cell proliferation assay of CL1-5 cells treated with ACTN4 scrambled control or ACTN4 siRNA. Mann–Whitney U tests were carried out for each interval (p < 0.05). The results of (D) the transwell migration assay, (E) the Matrigel invasion assay, and (F) the wound healing assay of CL1-5 cells treated with scrambled control or ACTN4 siRNA. G, Western blots and relative intensity quantification of differential expression of ACTN4 protein between CL1-0 cells transfected with control vector or ACTN4 DNA vectors. The signal intensity of Western blotting was normalized to the intensity of the CL1-0 cells transfected with control vector. The results of (H) the transwell migration assay and (I) the Matrigel invasion assay of CL1-0 cells transfected with control vector or ACTN4 DNA vectors. The quantification values of the transwell migration assays and Matrigel invasion assays are expressed as the mean ± SD values from triplicate experiments, and the cell numbers were calculated from six random fields under a light microscope at 100× magnification. The wound-healing assay was quantified using ImageJ software. The gray line indicates the initial wound scratch boundary, and the black line indicates the boundary of cell migration after 24 hours. The quantification of the wound-healing assay is provided as the mean ± SD values of triplicate experiments, and a Mann–Whitney U test was performed (p < 0.05). Journal of Thoracic Oncology , DOI: ( /JTO ) Copyright © 2015 International Association for the Study of Lung Cancer Terms and Conditions
7
FIGURE 3 Subcellular function and distribution of ACTN4 in CL1-0 and CL1-5 cells. A, Photomicrographs of CL1-5 cells treated with ACTN4 scrambled control or different pools of ACTN4 siRNA. The thin arrows indicate a typical morphology of CL1-5 cells treated with the ACTN4 scrambled control; these cells show mesenchymal-like morphology (upper panels). The thick arrows indicate a typical morphology of CL1-5 cells treated with the ACTN4 siRNA; these cells show primarily globular cells (lower panels). The scale bar represents 100 μm. Quantification of the numbers of mesenchymal-like CL1-5 cells treated with the ACTN4 scrambled control or the ACTN4 siRNA. The data are provided as the mean ± SD and were calculated from six random areas. B, Fluorescent photomicrographs of CL1-0 cells transfected with control vector and ACTN4 DNA vector and stained with actin. The typical morphology of CL1-0 cells is a typical epithelial-like shape (upper panels) and the typical CL1-0 cells transfected with ACTN4 DNA vector had elongated mesenchymal- or CL1-5-like morphology (lower panels). Quantification of the epithelial-like CL1-0 cells transfected with control vector or ACTN4 DNA vectors is provided as the mean ± SD from six random areas. C, High-magnification confocal immunofluorescence microscopy photographs. The CL1-0 cells showed an epithelial-like morphology with short extended pseudopods at the cell membranes (panels at left column). Two typical cell morphologies of CL1-5 cells treated with the ACTN4 scrambled control (panels at middle column) and the ACTN4 siRNA (panels at right column). The scale bar represents 10 μm. Actin was labeled with phalloidin-iFluor 488 (green color), the nuclei were labeled with Hoechst (blue color), and ACTN4 was detected using a goat anti-rabbit IgG conjugated to Alexa Fluor 594 (red color). Journal of Thoracic Oncology , DOI: ( /JTO ) Copyright © 2015 International Association for the Study of Lung Cancer Terms and Conditions
8
FIGURE 3 Subcellular function and distribution of ACTN4 in CL1-0 and CL1-5 cells. A, Photomicrographs of CL1-5 cells treated with ACTN4 scrambled control or different pools of ACTN4 siRNA. The thin arrows indicate a typical morphology of CL1-5 cells treated with the ACTN4 scrambled control; these cells show mesenchymal-like morphology (upper panels). The thick arrows indicate a typical morphology of CL1-5 cells treated with the ACTN4 siRNA; these cells show primarily globular cells (lower panels). The scale bar represents 100 μm. Quantification of the numbers of mesenchymal-like CL1-5 cells treated with the ACTN4 scrambled control or the ACTN4 siRNA. The data are provided as the mean ± SD and were calculated from six random areas. B, Fluorescent photomicrographs of CL1-0 cells transfected with control vector and ACTN4 DNA vector and stained with actin. The typical morphology of CL1-0 cells is a typical epithelial-like shape (upper panels) and the typical CL1-0 cells transfected with ACTN4 DNA vector had elongated mesenchymal- or CL1-5-like morphology (lower panels). Quantification of the epithelial-like CL1-0 cells transfected with control vector or ACTN4 DNA vectors is provided as the mean ± SD from six random areas. C, High-magnification confocal immunofluorescence microscopy photographs. The CL1-0 cells showed an epithelial-like morphology with short extended pseudopods at the cell membranes (panels at left column). Two typical cell morphologies of CL1-5 cells treated with the ACTN4 scrambled control (panels at middle column) and the ACTN4 siRNA (panels at right column). The scale bar represents 10 μm. Actin was labeled with phalloidin-iFluor 488 (green color), the nuclei were labeled with Hoechst (blue color), and ACTN4 was detected using a goat anti-rabbit IgG conjugated to Alexa Fluor 594 (red color). Journal of Thoracic Oncology , DOI: ( /JTO ) Copyright © 2015 International Association for the Study of Lung Cancer Terms and Conditions
9
FIGURE 4 The levels of ACTN4 in cancerous tissues and plasma samples of lung cancer patients. A, Representative images of the ACTN4 protein immunoreactivity of tissues at different stages of lung cancer, under a light microscope (200× magnification). The negative control samples were not incubated with primary rabbit anti-ACTN4 IgG. B, Scattergram of (i) immunohistochemical study of ACTN4 protein expression by diaminobenzidine intensity of adjacent normal and total lung cancer clinicopathological tissues, and (ii) the receiver operating characteristic curve was plotted for the ACTN4 staining of cancer tissues versus the normal adjacent tissues. Both scattergrams (i) in (C) and (D) were plotted for plasma ACTN4 protein concentration in the healthy controls and lung cancer patients from NCKU and KVGP samples, respectively. The red lines indicate the means of the ACTN4 concentration in each group. Both receiver operating characteristic curves (ii) in (C) and (D) were plotted for the plasma ACTN4 protein from the cancer patients versus the healthy controls from NCKU and KVGP samples, respectively (p < 0.001). Journal of Thoracic Oncology , DOI: ( /JTO ) Copyright © 2015 International Association for the Study of Lung Cancer Terms and Conditions
10
FIGURE 4 The levels of ACTN4 in cancerous tissues and plasma samples of lung cancer patients. A, Representative images of the ACTN4 protein immunoreactivity of tissues at different stages of lung cancer, under a light microscope (200× magnification). The negative control samples were not incubated with primary rabbit anti-ACTN4 IgG. B, Scattergram of (i) immunohistochemical study of ACTN4 protein expression by diaminobenzidine intensity of adjacent normal and total lung cancer clinicopathological tissues, and (ii) the receiver operating characteristic curve was plotted for the ACTN4 staining of cancer tissues versus the normal adjacent tissues. Both scattergrams (i) in (C) and (D) were plotted for plasma ACTN4 protein concentration in the healthy controls and lung cancer patients from NCKU and KVGP samples, respectively. The red lines indicate the means of the ACTN4 concentration in each group. Both receiver operating characteristic curves (ii) in (C) and (D) were plotted for the plasma ACTN4 protein from the cancer patients versus the healthy controls from NCKU and KVGP samples, respectively (p < 0.001). Journal of Thoracic Oncology , DOI: ( /JTO ) Copyright © 2015 International Association for the Study of Lung Cancer Terms and Conditions
Similar presentations
© 2024 SlidePlayer.com Inc.
All rights reserved.